Hot-wire clamp



y 1950 H. w. BODENDIECK 2,509,082

HOT*WIRE CLAMP Filed Dec. 22, 1945 Y 7 Shets-Sheet 1 y 50 H. w. BODENDIECK- $509,082

HOT-WIRE CLAMP Filed Dec. 22, 1945 '7 Sheets-Sheet 2 May 23, 1950 H. w. BODENDIECK 2,509,082

HOT-WIRE CLAMP Filed Dec. 22, 1945 7 Sheets-Sheet 3 May 23, 1950 H. w. BODENDIECK 2,509,082

HOT-WIRE CLAMP Filed Dec. 22, 1945 7 Sheets-Sheet 4 Filed Dec. 22, 1945 May 23, 1950 H- w. BODENDIECK 2,509,082

HOT-WIRE CLAMP 7 Shets-Sheet 5 x I U I AlllllH-WL y 3, 1950 H. w. BODENDIECK ,509,082

HOT-WIRE CLAMP Filed Dec. 22, 1945 '7 Sheets-Sheet 6 May 23, 1950 H. w. BODENDIECK 2,509,032

HOT-WIRE CLAMP Filed Dec. 22, 1945 7 Sheets-Sheet 7 j'nvenor fie/2 :9 WBoJerzJiec/z Patented May 23, 1950 UNITED STATES PATENT OFFICE 7 Claims.

The present invention relates to hot wire clamps of the type adapted to be used in connecting transformer leads, jumper leads, or any other connections made to a line or from one line to another on lines which may be energized or deenergized.

One of the objects of the invention is the provision of an improved electrical connector of the clamp type which is spring actuated in one direction and which is adapted to be actuated in the other direction by means of a cam, in such manner that it is unnecessary to utilize any threaded parts.

The ordinary spring type clamps of the prior art have been unsatisfactory, and therefore they have been for the most part superseded by connector clamps utilizing threaded members for opening and closing the jaws of a connector upon an electrical wire. These threaded members were necessary to secure suflicient pressure and to maintain the pressure on an electric wire to reduce the contact resistance and. carry the current load which is imposed upon such connectors.

Where screw type clamps are used, experience has proven that these clamps are unsatisfactory, particularly where they are used in service out of doors near the coast lines, where the atmosphere contains salt, or in the neighborhood of industrial establishments, where the atmosphere contains acid fumes. Both of these atmospheric conditions result in corrosion within the cut threads, and in a short time this makes the threaded portions inoperable and unfit to perform all of the uses intended for the clamp.

In other locations where vibration is excessive upon the conductor to which the connector is applied, the threaded screw vibrates loose, causing y a loose connection and damage to the electrical conductor, which may cause serious delays and breakdown of transmission lines, and the like.

The spring type clamps of the prior art with which I am familiar were not provided with any operating means for opening the jaws of the clamp, and the jaws were forced apart by the camming action of the transmission line conductor as it pushed into the clamp, due to the operator pulling downward on the clamp. In such connectors, if the springs were made of pressure great enough to warrant a firm contact on the line for carrying current and for preventing endwise shift upon the conductor, it then became very difiicult and in most cases impossible to apply the clamp to electrical conductors. The stiffer the spring, the harder it was to force the jaws apart by pressing them against the transmission line conductor. Furthermore, it was not desirable to place the strains on the transmission line conductors which were involved in forcing the spring clamps of the prior art open in this manner by pushing them against the line.

One of the objects of the present invention is the provision of an improved type of clamp or connector which permits the operator to install the clamp upon a conductor, either energized or de-energized, safely and easily, and which eliminates any possibility of the clamp loosening on the line through vibration or any possibility of the freezing of the clamp by corrosion of threads caused by atmospheric conditions.

Another object of the invention is the provision of an improved operating means for clamping connectors of the type described which is not subject to any of the disadvantages of threaded operators, and which will open or close the jaws under high resilient pressure without imposing any substantial strains upon the transmission line.

Another object of the invention is the provision of an improved operating means of the class described which can be used in connection with the so-called Universal pole, or which can be used with the clamp sticks that are now on the market and which are adapted to actuate or control the common types of eye screw clamps.

Another object of the invention is the provision of an improved clamp of the class described which has a three point pressure contact upon the conductor, and which will accommodate various sizes of wires, the three point contact jaws providing more contact area and better rigidity on the conductor, and avoiding marring of the lines or the possibility of any undue movement either endwise or up or down, thus adding materially to the life of the conductor and to the satisfactory operation of the clamp.

Another object of the invention is the provision of an improved operator and hot wire clamp from which the operator may be removed to serve in the nature of a master key, preventing any one who does not have such an operator or master key from removing the clamp from the line, and thus providing greater safety to the linemen, since a ground applied by him cannot be removed except by those who have this key, without considerable difficulty.

Another object of the invention is the provision of an improved clamp connector from which the operating member may be removed, thus reducing the weight on the line by a substantial amount, and eliminating the necessity for having an operator for every clamp and reducing the expense,

line, or any possibility of their becoming loose 111-- advertently.

Other objects and advantages of the invention.

will be apparent from the following description and the accompanying drawings. in which similar characters of reference indicate. similar parts throughout the several views.

Referring to the six sheets ofdrawin'gs' 'ac'c'orn panying this specification:

Fig. 1 is a side elevational view in partial section of. apclamp embodyin my invention; shown n conn c i nr i hone: t e f: clamp-Stick; a mayybeutilized for a/pplyingthe eye screw type f cl m, v

Fig. 2 is a rear elevational view oi the clamp;

Fis-Bfi -a tee ma iv ewi fih Clamp;

ie i care ev t al vi I Fig. is a-sectional view,,taken ontheplane of the line. 5 5 of Fig. 4, lookingin the directionof heza qws; ,Fig; 6: isaiyiew in; perspective of the removable clampin .meniber; V V p v I Fi is a .viewi n ne sh cti e. 0 e; a v l fixed clamping membereand the operating membericarriedthereby; Y, V V

Fig 8 is a topv plan View oithe operating memher-cream;

.Eig. -9 is, :.a:.side elevational view of another modified form of 'clamp, shown'in connection with the universal. pole; b

Fig. 10 is .a .front elevational view of this clamp;

I Fig. 111. is an.elevationalview of the master-key or remova-bleoperating element for attachment ma; universalipo e;

-Fig.;12;is a top; plan viewof-theoperating element-or. cam; v

Fig. 13 is a rearpelevationalviewof the clamp of..-Fig. lOyappIied-to the wire, but having-the operating, 5 element removed;

. Fig. lei is;a:side-.elevational-. view inpartialsection, showing. the universal pole inside elevation;

"Fig. l5iis a-view. in:; perspective of a modified form f-rclamp;v

Figslfi is a. front; elevational view of ,thisclamp ,Fig.= 17;.isaz rear. elevational view of this clamp;

. Fig. .18 is.a,si de..elevational view of this clamp;

Fig. 19 is a sectional view, taken on the plane ofthelineJQ-etfl of-Fig..20;

Fig.2? .is;a 130p; plan view of this. clamp inpartial section, taken on the plane of the line 20 -20; of Fig. 13;-and Y Fig.-2l is.a..side elevational view of the connecto rlb olt; V 7 v I Fig. 22.is a view inperspective of the removable actuatingmember, whichmay be used for any of a. multiplicity of tap clamps, and which is provided with an integral ferrule sothat it can .be permanently attached to. a pole;

' Fig.. 2 3' .is a view inperspeotive: of the removableactuatingmember, which ;may be used for any. of .a i multiplicity of tap clamps, and which is provided with-.an eye at. its lower end tor removable enga'gement; withia clamp stick, disconnect stick, or the like.

Fig. 24 is a view in perspective of the removable actuating member, which may be used for any of a multiplicity of tap clamps, and which is provided with an integral transverse bar forming a handle for manually turning th cam shaft when de-energized or when energized with low voltages, and using rubber loves.

Referring to Figs. 1 to 8, these are views showing'a; formof my invention int-which t ,e clamp is illustrated inflconnectionlwith an actuating member having an eye of the usual size that is =.-employed upon screw type clamps of the prior cart. Thus my clamps of this construction will "be operable by means of the clamp sticks of the .prionart, one-.e'xample of which is shown in Fig 1.

In this figureZ'S' indicates the transmission line conductorenergized 0r die-energized, to which the clamp is to be applied, and 25 the lead or jumper wire orrground. The clamp-is indicated ini-ts entirety -by the. numeral 121;. and .it is shown in connectioniwi'th-a clamp sti'ch28 of ait ype'usd urem a art.

Such a clarr' 'p stick.hasialong insulated wooden pole 79, the length of whichdepends uponthe voltagesiwithwhichit is to be used, andiitf has a head .36, which maybesecured to the-wooden pole ibymeans-of bolts or rivets 3l the pole being located in a socket-3?. Tl helhead 33 has an outer tubular. sleeve member 3. providdiwith..a; slot '34 for passing the eye 35 .or the .clamp actuating member 36.

Another rotatablesleeve 3 l i mounted for rotation; in thesleeve 33 and contro1led by La stop member 38, which move iina: slot J 35 T in I the sleeve"33. Thesleeve 3lli 7 ewise has. azslot for passing the-eye 35, when its slot is in. registry with. the slot 34 but when the :sleevelis rotated through ninety degrees, the-slots intersect each other and do. not permit the eye 35 to .pass out of I the head- 2 8,. but 1 the "slot in theouter sleeve angles, deper-iding upon the clearances provided n. e s tsin t e d- An important featureof allof these clamp sticks lies in theiact that theouter sleever33= has apair of. slots r lil in its upperface so that the pole m yb pv b i w riio clamp nt or theotherof thegslotsv 48 receives a lugA'l on-the clamp. v e v When-the clamp andpole are in this-position, the pole may be used for-bending; or twisting the jumper ZBpr Qther-leadta loring the clamp into alignment withthe ccnductor' fl'atowhich it is applied. M b

b It will be. noted: that my clampspreferably all have suchra. lug dl. forpermitting the holdingof the: clamp fixedly on the-end- .ofthe clamp stick by pushing the clamp stick -,up" and permitting theeye togmove down in the- -s-leeves.

V The present clamp; .illustr-ated in Figs. 1 :to I 8 may be constructedqout of -a-- minimum; number ofparts, the operatingmember-Zifi, the relatively fixed T clamping member 42,; the relatively movable cl amping member-,43, thespring 34, and theconnector 15 for securing the jumperwire or other lead 26 to thefixed clampingmember 42,

Th-is connector A5. ispreferably in the form of a threaded -mem-ber having a threaded shank 46,23. nut Algand a; head. The head AB-imay has -a throughbore Sitter-passing the conductor 26, which is located in a partially cylindrical groove 5| on the under side of the elongated head 48. v p 1 The elongated head 48 is preferably provided with a convexly curved surface 52, which is curved in both directions, the longitudinal curvature being provided for a specific purpose. For example, when this bolt is in clamping position in connection with the conductor 26, as shown in Fig. l, the curved head surface 52 On the clamp and bolt serves to guide the conductor into the space between the jaws and minimizes the possibility of the conductor being caught or impeded in its motion to the position between the jaws of the clamp.

' The head 48 is preferably elongated, and may be substantially rectangular in plan, as seen in Fig. 2, so that it gives a substantial contact area engaging the conductor 26. The fixed clamping member 42 is shown in perspective in Fig. 7. It may consist of a cast metal member which has a lower depending connector portion 53.

The connector portion 53 has a substantially circular tapered body 54 with a through bore 55 for passing the bolt 45. The through bore 55 communicates with a partially spherical socket 53 for receiving the round portion 49 of the connector bolt 45.

Above and below the socket 56 on the, connector body 53 this body is preferably formed with a pair of lugs 51, 58 projecting forwardly away from the operator and provided with V-shaped grooves 59, 60, the walls 5!, 52 of which serve to engage conductors of different sizes and to oppose the clamping action of the lower partially cylindrical groove 5! on the lower side o the head of the bolt 4'5.

The connector portion of this fixed clamping member 41 also preferably has a rearwardly extending stop lug 63, which may be tapered, and which preferably has a flat lower face 64 for engaging the end of the conductor 26 to limit its motion into the connector.

The portion 65 of the fixed clamping head 42 between the connector 53 and the main body may be tapered, increasing in width upwardly so that it has a substantial width at the groove 61 on its inner face for engaging the transmission line conductor 25, thus increasing the contact area. The groove 51 may be V-shaped or partially spherical, and it is preferably formed in a forwardly projecting lug portion 63.

Upwardly from the groove 61 in Fig. 7 the fixed clamping member 41 is provided with a fiat body portion 69, substantially rectangular in shape, but provided with a diagonally extending partially cylindrical bearing lug 10, having a diagonal bore H for rotatably supporting the upper cylindrical end 12 of the actuating member 35.

The body 69 may be provided with a cut-out portion 13 for decreasing its weight and saving material, and which is also adapted to pass an inwardly projecting cam engaging member 74 carried by the movable clamping member 43.

Theupper edge of the plate 69 of the fixed clamping member 42 may be provided with a pair of partially cylindrical hinge bearings 15, the inner cylindrical surfaces 16 of which are adapted to engage the integral cylindrical pintle portions 11 on the movable clamping member 43.

The hinge bearing portions 15 may be spaced from each other by a substantially rectangular slot 78 for. receiving a radially projecting lug .19. on the pintle portions 11, that'serves as' a thrust bearing for determining" the longitudinal position of the'pintle portions 11 in the bearings'l5.' 1 The lug 19 engages the sidewalls of the slot 18 to prevent axial movement and to keep the parts of the two clamping members in proper alignment with each other. The pintle portions 11 on the movable clamping member 43 (Fig. 6) preferablyproject beyond the plate-like body 80 of this member at each end, and the plate 80 is provided with a slot 8! between the plate and the pintle 11 on each side to provide space for the coils 82 of the spring 44, which may make a plurality of turns about the ends of the pintle portions. While wire springs of circular cross-section are shown other shapes-may be used such as those made from flat stock or sheet spring material.

7 Various types of springs may be employed, but I prefer to provide a spring of the shape shown, which may be made of spring bronze or some other resilient material having non-corrosion characteristics. As shown in Fig. l, the spring passes to the left from the coil 82 in a sub-' stantially tangential portion 83, which is down-'- wardly turned at substantially right angles at 84, carrying th'e substantially U-shaped portion 85, which is joined in a similar way to the other coil 82.

The portion 85 of the spring thus has its yoke 86-located to engage the outside of the movable clamping member 43, just above the V-shaped formation 81, which is adapted to engage the conductor 25'. This gives the spring an adequate lever arm in its action on a movable clamping member, without interfering with the conductor 25.

The other end of each coil 82 may extend tangentially toward the right in Fig. l, as indicated at 88, and may be turned downwardly at 89 at substantially right angles; and when tensioned, may be lifted over the intervening parts of the fixed clamping member and may have its straight portion 90 located to engage the rear face ff the fixed clamping member, as shown in Fig.

In order to locate and hold these end portions 90 of the spring in proper position, the fixed clamping member 42 may be provided with a pair of lugs 9| spaced from each other to provide a groove 92 at the top (Fig. 4) and another pair of lugs 93, with a similar groove, to receive the spring portion 90 adjacent its lower end adjacent each edge of the clamping member 42 on its rear side.

The lugs 93 are located inwardly and closer toward the similar lugs adjacent the other edge than are the lugs 94 for the reason that it is desired to keep the spring within the borders of the clamping member to keep it in position where it will not interfere with the guide lugs 34 (Fig. 6) on the movable clamping member 43.

Thus the ends of the spring are brought into engagement with the rear side of the fixed "together with their bearing surfaces 16 engaging the pintle 11, after which the ends 9|] may 7 be further :tensloned' and moved 5ii 9m direction, in Fig. 1, until they pass the lll$1 g9 and settleinto the grooves-zezybetween t e -h1 5'93.

The movable clampingimember i n h fisfidy hadsome of its parts described, i s :f-platerkke body so is rovidedrwith oralap rturer fi. r assin the shank 3.2- orthe actuatin m mber? d f p si gth b arin his 30: ir he fixed clampingmemgberh Y The-two rearwerdlr: project ng :lus 15.4 m y be substantially hat and "tapered toward their ends, and they: are referably dong eneu h that evenin the-extrem op n p sition show in Fi lthey still overlap thefixed elam us memher-'42.

They project from the SidfiSgOf theniovable clamp n mberA'etoWard-wthefl d el ...'pi

mem nd are locatediust outsideo-t e ed s Below the v-shaped iormationzflrth r movab e."

clamping member 43 may be provided with a downwardly and outwar ly zcurvedij emmins tongue 98, the innersuriaceof which, 95, pro, vides a curved guiding surface 'rorrzaidin r-in bringin the conductor 2;5'-:into a-position be n tween the clamping members.

This curvedtongue 88 shay be provided with an oval aperture-100 for "171162 purpose or reducing w i t a d f r passinat estupidest enrthe fixed clamping member in the case of arsmall conductor 25.

-It will benotedthat'the curved-surface ;52 on the head of-the conductor boltfl also con,- structed so as to permit the ponductor: 251i? slide over it mosteasily into the space between the clamping members'of the device.

Although the dug-'53 projects slightly, it does not mater-ially-xinterfere with the entrance'of the conductor 25. Additional meansiiforretaining a, conductor-between the clamping-members may 'be provided :inthe ,form of: a pair of. tri langularly rearwardly extending ifisn'ges m l .cated on the rear-side of the ton e 8 rd located on "each fsideqof the gshanlepontion-nfifi of the fixed clampingmember.

These triangular flanges :Hll-havetheir upper surfaces H32 located immediately zbelowaany wire that is in the rooved-portion @L'IEIIldQEfiBGfil/Bly incr ase the :size of th wire that maybe-cl. mired and held without po ib ity fx nadve tenierelease. a

- The actuating; member 35 has been, illustrated in Fig. 1 inpcnnection with aneye35 .oftheusual size and shape mountecl'on clamps-of; theeye screw type. This-actuating 'member. ,361'may, however, be provided with a head of desired shape, such as a-g-hexagonalhead, -.squar head .or it may have thefian ed'head 10.3 of the adapted to be secured to a universal pole; as

shown in Figll.

iii

1 fle errins to i .:2,3,- h s .s enil-l str t nct an actuating member of the type described, which is p o id d withan e 3 o n sh p to the e es us d on th bon ai-ordina ap amps 7 Referring to Fig. 24, this is a view in perspectiv -or the same operatin member wh n i i-is provided with an ntegral transverse handle lllil adapted to be grasped by the hand, when the ola px s applied to a ti -ener ized ndu or 0 for use on low voltages'when the operator is wearing rubb r ovesa Reference has alr e yb n ,mad t th camengagin-g member 14 on the movable clamping mem er 3 h scam-ensasins m mb c mprises, a'rearwardly-r projecting partially cylindrical: flan e 10 havin acurved and beveled ed e 95, which s of suffic ent wid o maint engagement with the curved beveled edge 1.0.6 .(Flg. 1) 4 on a cam M11, as themovable clamping member 53 pivots outward and the radius of the point of engagement-between the cam Hi7 and cam-engaging member changes.

The actuat n m r 6 is provide at s upper end with a cylindrical trunnion portion 12 rotatably mounted in the cylindrical bore or bearing H of a bearing lug "lfl'on the fixed clamping member. Below-the cylindrical end portion 12 the shank of the actuating member 316 carries the radially extending cam *lfil, which may extend over slightly more than 1:80 degrees, but which also has a flat rear side 108'- (Fia. '7) that may be flush with the side of the cylindrical shank l2, permitting i-t to-clear "the cam engaging member 74.

This permits :the jaws-topciose completely-to grasp smaller wires and also permits theactuating member to be assembled'withthe fixed clamp? ing member by'sliding the cylindrical end portion 12 into .the bearingbore; ill-when 'thefiat side Hill of the cam is turned-toward thetcamengaging mem'ber i4.

' Proceeding from the flat/aside 1.08. (Fig. 8) ;the

V engaging: beveled edge Hi9 20f: the; cam gradually increases "in radius to 'the' point H0. In order to provide a stop for maximummovement of the cam; actuating member 3fi'risalso provided with a radial flange l H extending axially on the shank portion H2 and decreasing in radial width from the maximum width of 'theicam down'to the bearing flange? I241 This flange H'l serves as a stop'flange, as it is located to engage the outwardly projectin'glug H 3 (Fig; 4), which'projects upwardly from the bottomaperture is n the" fixed clamp member. This'lug' is seen in Fig. 5"in position *toengagethe stop flange H l, thus 'prevn'tingthe cam from passing off the cam-engaging member 14 at the maximum opening'of 'the'jaws. e

' The cam is'also preferably provided with-another stop member I'M' (Fig. 5), comprisi'ngan axially projecting" lug extending upwardly from the fiat'upper surface H 5 of the camand located radially outward of thecyliridrical bearing lug 10 so that it will not interfere with the rotation 01 the actuating-member 36- u'ntilthis member "is turnedclockwise to the maximum closed position, which isalso the position when" theflat side "18 is turned toward thecam-eng'aging member 14.

In this maximumjclosed position thestop surrace .I l 's' (FlgQ'Sl is located. to en age the stop surface In" on a rearwardly pro ect ng i ul Emulation I 18;. serving, as) astop member on the rear surface of the fixed clamping member 42 (Fig. 4).

Thus stops are preferably provided for both of the limits of motion/of the actuating member. In order to retain the actuating member in as. sembly with the fixed clamping member the upper end 12 of its shank is preferably provided with a diametrically extending aperture II9 (Fig. 2) for receiving a retaining wire I20, which may pass through this aperture and may be curved to circular form at I 2| on each of its ends.

The wire I20 serves as a thrust member for preventing removal of the actuating member; but in some embodiments of the invention, notably that shown in Figs. 9 to 14, this thrust member is omitted.

In order to give the actuating member additional bearing support the outwardly projecting lug 4| that is used for engagement with the clamp stick in twisting the clamp and lead wire (Fig. 1)

may be provided with a fiat outer end surface I22, serving to engage the cylindrical edge I23 of a disc I24 that is carried by the shank II2.

Engagement of the edge I23 of disc I24 with the end I22 of lug 4 I supplements the bearing surface of the bore II on the shank I2 in some pushing motions that are exerted on the actuating member at; but in some embodiments of the invehtion this feature may be omitted.

The operation of the device just described is as follows: I

The jumper or lead 26, which is to be connected to the conductor 25 is first secured in the connector bolt 45. The lug 63 stops the wire 20 in its insertion and determines its final position when the nut 41 is threaded home. The conductor 26 is tightly clamped. If an eyetype clamp is used, the eye is placed in the slot 40 of the clamp Stick head 28, and the inner sleeve 31 is rotated with the slots cross each other and retain the eye 35.

The pole may then be used to handle the clamp, which is first preferably opened by rotating the actuating member 30 in a counterclockwise direction, which causes the increasing radius of the cam from the point I09 to the point I III to make the cam engage the surface I on the lug 14 of the movable jaw to force the jaws apart against the tension of the spring 44, opening the jaws to the position of Fig. 5.

The slope of the cam is such that the jaws cannot force the cam to rotate, and therefore the cam will hold the jaws in open position.

The device may then be lifted by means of the clamp stick, the insulating handle 29 of which is grasped by the operator; and the weight of the assembly will cause the eye 35 to move downward into the head 28 until the lug M is located in the slot 40.

This permits the operator to twist the complete assembly to bring the clamping jaws into alignment with the conductor 25, even though the wire 26 must be twisted, and such lead wires are usually quite heavy.

The clamp may then be hooked over the conductor 25, this conductor being guided by the surface 99 on the movable jaw and the surface 52 on the connector 55 until the conductor is in the position of Fig. 5 between the jaws.

In this position the clamp may be hung on the conductor so that it is practically self-supporting;

The clamp stick may be withdrawn slightly until,

it merely engages the eye 35, when the clamp stick may be turned in a clockwise direction, and the cam will rotate until its portion of smaller radius engages the'tongue 14, thus permitting the spring to force the two jaws together into engagement with the conductor.

The conductor naturally finds a position in the V-shaped groove portion 81 and groove 61 of the two clamping members in the position of Fig. l.- Thereafter the clamp stick may be removed in the usual way, and the clamp with its lead left on the conductor 25 until it is desired to remove it.

Referring to Figs. 10 to 14, these are views showing a modification in which the actuating member for the clamp connector is of the type that may be used as a key which may be removed from the clamp when it is located on a conductor, thus preventing one who does not have the key from removing the connector from the line, except with considerable difliculty. v

This reduces the number of parts which are required, as only one key need be employed for a; multiplicity of clamping connectors, and also increases the safety in so far as the lineman is concerned. No one who does not have a key can remove the ground or other connection that he has applied for his safety while he was working on the line, except with difficulty.

In this embodiment of the invention the actuating member has been designated by the numeral I36. It is preferably provided with a suitable flanged head I03 of the type employed for connection to a, universal pole. Such a removable actuating member is shown in Fig. 11.

Such a flanged head consists of a substantially circular disc I31 provided with an axial slot I38 terminating at a cylindrical surface I38, which is concentric with the center of the disc I31 and adapted to receive the shank of a screw bolt I40.

The screw bolt I40 is threaded into the threaded bore I M of a supporting plate I42 and is preferably provided with a flat head I43 for engagement with the fingers. The opposed faces I44 and I45 of the flange I03 and plate I42 are preferably provided with spaced radial lu s I46 that interengage to assist in preventing rotation of the disc I31 on the flange I42 when clamped by the screw bolt I40 in the axial position, as shown.

The flange N2 of the universal pole fitting is integrally secured to a metal socket member I41, having a cylindrical socket I48 for receiving the end of the insulated wooden pole I49, which is secured in the socket by a, screw bolt and nut I50 or by an appropriate rivet.

In other embodiments of the invention the shank actuating member I36 might be secured directly to the socket-member I41, constituting a pole and tool for this particular purpose only. Such a removable operating member permanently mounted on a pole is shown in Fig. 22. However, the more convenient construction is that shown in Fig. 9, where the actuating member or key I30 is adapted for use with universal poles of existing construction.

The actuating member I36 differs from that previously described in that the upper end portion I5I is elongated over the end ortion 12, previously described, and provided with a tapered bluntly pointed end I52 for more convenient insertion into the aperture H.

The construction of the fixed and movable clamping members may be substantially identical to that previouslydescribed, but the actuating member has additional difierent features, as follows:

Since there is no transverse wire pin I20 to act as a thrust bearing and take the axial thrust of the cam on the shank of the actuating member I36, provision is made to take this thrust by r (Fig. 11) extending far --enough -to engage" the ,e soo eea thrust surfaceI 55--onthe u-pper-side of lug-4! (Fig. 9). Thethrust flange I53-does not'extend fully around the periphery of the =disc I 24,--but j presents a cut-away side at 1-55 (Fig.=l-2)-- asdapted -to-olear the lug-4I when--the--key istmbewith drawn. *Thus-the device-in thispase may have "itsactuatingmember I35 withdrawn from the two olampingmembersra'fter the clamp has been placed upon the-conductor 2 5.

The operation of this embodiment issubstan tially the same-asthat previouslydescribed-except that it is;- preferable that the actuating member'I BB-extend in adefinite; directionand be fheld substantially rigidly.

"12 V, hinzzits .scompressed. 1:1)05113101'1 ;;(Fig. l 9) 5 when the jaws are open.

'izwhenzthe .jaws are; closed as shownin; Fig. 18, ":the :spring 165-; is adapted; to :7 be received L in the s' ibore I1-5rofthe sleeve 116. At its upper endzthe coil :springrtrIfiS -engages a thrus s e which isiheld in placexby'a; ,cotterpin :'I18,:.passing through an aperture in; the; shank- I66.

zjAt its lower: end the spring;- I 55" engagesthetw i annular usurfa'ce I19 :of athe'g-movable clamping member I-:62.

ZThefiXed -.c1amping:.member;l 6 I may-consist of LaCaStImEt'aI member'in the form of a sleeve- I16, shavingan' inner cylindricalbore I large enough 1. 15:.toweceivexthe spring-51. 65201 he ra .1 "a

to permit the lugs I19, H2 to rotate therein.

Unnecessaryparts-of the--sleeve-;may be out uawayr to reduce-weight by; forming; the apertures i; ".1811: in either-aside of -this c lamping member. At

"The clamp connector is handled in exactly the :20 s htside in. Fi 1 ;.t is clamp -mcmberhas same way as inthepreviousembodimentexcept radially w d y d w wardly QXteIlding *that; whe th t m has ;.-;integral;oonneoter flange: IBI; which has a V- movedthe cam; in agolockwise d-irectionto the p d: groove. I82 (Fig-@163)- K19 1 2 f e f *the operatormay therrpullonthe'olamp stick or point where the clamp engages the conductor,

:' in Fig.= I I can remove this clamp from an ener- 1- gized conductor.

If-the operator has placeda groundon the con ductors on which he is working inthis ma-nner. there is a greater degree ofsafety inview-of the ifact' that no one can remove the ground except by the use of a key of this -type, withoutsome 40 outwardlyeextending guide -flanges I9 I I 92, the

. difiicu'lty.

' It isalso necessary to -have--only-one keyior tmany "clamps, and thus-there is a marked saving ceiving -:the jumpereor other'; lead I83, and may 25.t:a1so..-have a socket andbore-for receiving the connectornbolt I34 that may be exactly; similar -toathe-one previously. described.

2 :In this :case the -conductor 183 is, ;however, clamped on i-the ;side of the: flanged 8 I, and: the

a guide for guiding the conductor between the sg'aws. r'iThe-sleeve;I'1Bmay be open-on one side vlat its upper :portion ;and provided with a forrwardly. extending :shelf I 86, which extends;- at

:; 35: substantia-1ly1right ;angles,-and which may have aiclearancefgroovecat. its rear corner I81.

'r'The: upper fiat surface I88 of this shelf is adapted toengage the conductor ;25. "The side walls I 89,-:I9fl of :the. sleeve-I16 support a pair of forward flatisurfacesrlfiif'of which serve torguide themovable.clamping-member I62 and to prein the costof the clampsjbecause of-the eliminaventits rotation. tioniof the-necessityfor' this part in all-of-the h m va e-c1amp ne'm mber is -bes sh wn .i..clamps. 5 in'Fig; l9, and; it comprises a -metal member Referring nowtoFigs; 15to'-20,,these are views showing another modification of :the; invention. In this casethe main partsjofgthe clamp connector are the connecting member "I50, the relatively .fixed. clamping. member I6 i. the relatively ,inov able clamping memberlfiz, the connector I53 for the lead, thenam I 54, and the springI-ES.

' In this case the actuating member may consist :of a cylindrical shank. I65, which mayagainbe whichmayibecast, and which also has-a substantially cylindrical-sleeve,- IE I, with a cylindrical it throughbore I95 for receivingrthe shank I66.

The size of the cylindricalssleeve:I64 issuch 3 that itmay slide Jfreely inthe sleeve-I16. At its forwardside theisleeve lfi lzsupports aniintegral jaw member: I196, whiohhas a diagonally upwardly extending portion' lfl and a diagonally downwardly extending portionr I98, the latter bedirectly attached to a pole;or to a-universal pole; 551mg n it is intended-t0 guide the 0011- fiallge, or may be provided withan'eye I61, lithe -du6t0r=25 between the j 'connectionis not tohe temporary. On itslower side the surfaces I99, 2% define The shank; 166 has aradially extending thrust a h p d groove f r n ing h top of the flange I58 with an an ul thr t surface [59, --conductor 25,-and the extension of the surface and, it is provided with an in tggra l n x i= 60100 serves to guide the conductor into place. A

- "tending-Jug I1Il,.spaced iromr-thelthrust surface of triangular depending 1115s &

."lhesha-nk lfiii carriesanotherradiall extendmg Cammmg lug nzpwhioh mayzlhaive aydiaggnaii 65--of-theshelf ISBon-the fixedclamplng member IS! a. v 't 4 5 i Surface.fi3 on S upper 'Slde for en The sleeve: also serves as acam, and forthis ,gaglng-,-the cammlngsurface I14 on the; cam IE4.

purpose its lower edge is provided with the zfrhe'zlength ofsthe;lugs--li il= and I12; 1s;;suc.h that I helically curved cammingsurface I14,,terminat- :the. shank 166;.may be rotatedin i ei 1 --ingab the abruptiaxial shoulder 203. At its op- Of the sleeve of the fixed clamping m b -posite lend the helical camming surface 114 :terminates in a transverse shoulder I94, provid- & 'Thelength ofthe shank'iififiissuch that i ,p1 ing a placeoinswhichithe lug. I12 may dwell to ejects abovethe.two;.clamping:;members and-prohold the jaws-i Open position.

videsroom forcarryingithe.helicalcoil spring; I65 7 5 131% should;. be -noted that;iorpurposes of assembly, the inwardly extending radial wall I1'I at the bottom of sleeve I16 (Fig. 19) has a slot 204, which is of sufiicient width to pass the lug I or the camming lug I12.

Thus, when the eye is rotated to proper position, the shank I16 may be inserted from below by passing the lugs I12 and I10 successively through the slot 204. This slot 204 is so located that it will never register with the lug IIll at any position in which camming action is being accomplished, as the lug I10 reacts against the flange I1 I, when the lug I 12 acts against the cam surface I14.

It should be noted that this embodiment is also provided with a depending lug 205 for engaging in the slot of a clamp stick head to permit the operator to twist the complete assembly and to bend the conductor wire I83 until the clamp jaws are in line with the conductor 25.

The operation of this form of the invention is as follows:

The lead I83 is attached in exactly the same manner as in the previous embodiment, and the eye I61 may be secured in the head of a clamp stick. The jaws are opened either before or after being secured to the eye in the clamp stick by turning the eye counterclockwise with respect to the fixed and movable jaws.

During this rotation of the shank of the eye, the lug I12 bears against the camrning surface I 14 and slides on it, forcing the sleeve I64 axially upward on the shank I66. During this rotation the lug I10 reacts against the lower inwardly extending radial flange I1 I, but does not come into registry with the slot 204, and the lug I12 finally comes to rest against the flat dwelling surface I94.

As distinguished from the preceding embodiment the cam surface I14 is of such slope that it would force the lug I12 downward, and therefore the flat dwelling surface I94 is necessary to permit the jaws to be held in open position.

The connector clamp is then hooked on the conductor 25, care being taken to use the clamp stick and lug 205 to twist the clamp into alignment with the conductor; and if the operator will turn the eye I61 in a clockwise direction, the lug I12 will ride oil the dwelling surface I94 on the camming surface I14, and. the spring I65 will force the jaws together into clamping engagement with the conductor 25.

In each case the clamping pressure is placed on the conductor by means of relatively strong springs, and the clamping members haxe an ex tended area of contact and a shape which will enable them to grasp conductors of various sizes.

It will thus be observed that I have invented improved cam-operated spring type connector clamps which are provided with springs adapted to maintain sufficient pressure upon the electric wire to carry the current load that is imposed upon the connector, without resort to threaded members or other means for actuating the jaws.

Such a resilient spring pressure on the jaws maintains a good connection under all conditions, including vibration; but the operating mechanism comprising the cam is not affected by corrosion, which might result where the clamp is used near the seashore, where the atmosphere contains salt, or in the neighborhood of industrial establishments, where the atmos phere contains acid fumes.

As distinguished from out threads, which become inoperable in a short period of time, when any corrosion results, the present clamphas an operating member which is adapted to be used for a long period of time under the most adverse conditions. The spring pressure in this case may be sufficient to provide a firm contact on the line for carrying current and for preventing endwise shift on the conductor, and in fact quite a wide range of spring pressures may be used, since the present cams are adapted to provide sufficient power to open the jaws against heavy springs.

The present connector clamp may be actuated by means of the clamp sticks which are on the market so that these connectors may be used without any new investment in clamp sticks; and in some embodiments of the invention the cam may be made'removable so as to prevent any One from removing the clamp except one who has the key in the form of a cam fitting the device.

A three point pressure contact is provided upon the conductor, providing a greater contact area and a better rigidity of the clamp on the conductor, which avoids the marring of the lines and the possibility of any undue movement, either endwise or up and down.

When the actuating member is made removable, this decreases the over-all weight of the clamp, which in many cases is a very desirable feature, since the amount of weight that is placed upon the line should be strickly limited.

The feature of withdrawal and replacement of the cam provides a master key, which results in greater safety to the lineman because he can be sure that no one will remove this clamp who does not have. this master key. The use of one master key or cam for a number of clamps also minimizes expense, as it reduces the number of parts by one in most cases.

While I have illustrated a preferred embodiment of my invention, many modifications may be made without daparting from the spirit of the invention, and I do not wish to be limited to the precise details of construction set forth, but desire to avail myself of all changes within the scope of the appended claims.

Having thus described my invention. what I claim as new and desire to secure by Letters Patent of the United States, is:

1. In a tap-off clamp, the combination of a relatively fixed clamping jaw, having a clamping surface for engaging a line conductor, with a movable clamping jaw pivotally mounted on the fixed clamping jaw, and having an opposed clamping surface for engaging a line conductor, one of saidjaws being formed with laterally projecting integral pins at the point of pivotal connection between the jaws, a spring having a U-shaped portion engaging one jaw, and having radially extending legs engaging the other jaw, said U-shaped portion and legs being joined by two helically wound portions, and said helically wound portions being mounted on said laterally projecting pins, the legs and U-shaped portion engagingthe outsides of the fixed and movable jaws to urge them together into substantially parallel clamping position, the fixed jaw being provided with a bearing extending toward the movable jaw, and the fixed jaw having an aperture below said bearing and a cam follower carried by the movable jaw and projecting into said aperture.

2. In a tap-oil clamp, the combination of a relatively fixed clamping jaw, having a clamping surface for engaging a line conductor, with a movable clamping jaw pivotally mounted on the fixed clamping jaw, and having an opposed clamping surface for engaging a line conductor, one of said tending legs--- engaging the; otherv jaw,

jaws being-iormed with -laterallyprojectingi,in-

tegra-l ,pinsaat the pointeof gpivotal; connection between the; jaws, a spring having-gab -sh apedportion engaging; one -j aw, ,and .havinggradially ex- U-shaped portion-and legs being joined-(by two helical-1y wound portions,- and. said 'helically wound portions being mounted 911S3Jid laterally projecting pins, the legs. and U-shapedpor-tion engaging the outsides. of thewfixed rand -movable; jawsto urge, them-together, into substantially parallel clamping position; :the fixed -jaw being provided with a bearing. extending toward the movable jaw,-and the; fixed ,jawghaying an aperture.;be1ow-sai d bearing, endgpamzfollower carried by the movable -jawland projecting-into said aporture,-andan operating member-having ahead for-manualor operating pole engagement, said operating member-having a shaft insaid bearing, and having a-cam located ionzthe outside of the g u shaped portion and legs beingjoined by. two 9 helically wound portions, and said helically wound portions beingmountedon said lateral1y,project ing pins, the legs'and U -shaped,-portion engaging theeutsides of-the fixed-and-movable jaws to urge them together into substantially parallel clamping-position; the fixed. jaw beingprovided with a bearing extendingx toward the .movablejaw, and the fixed jaw having an apenture-below said hearing, a cam :follower carried by-thamovable jaw and projecting into. said aperture, and an operating member having a head forimanual or operatingpole engagement, saidoperating member having-a shafitlinzsaid bearing, and-having-a cam located on the outside of the fixedejam and engaging said follower through saidhole to vcam the movable jaw away from the fixed jaw, the said operating member being provided also with a radially extending stopfiange, which is cut away at a predetermined point,- and said fixed jaw having a lug projecting toward said shaftandlocated outwardly of the stop flange, for holding the shaft i it bearing-, except when the cutaway portion f the stopfiange is located to ,passisaidlug.

4.- In a tap-off clamp, the combination of a relatively. fixed. jaw member: having a clamping surface for engagement with a conductor, a movablejaw member onsaid fixedijawi, said fixed jaw being provided. with :a cylindrical bearing member extending, transversely to. .the movable jaw,- and an actuating member havinga-shaft located in said bearing,.and having a cam mounted onisaid shaft for rotation with the. shait, a follower carriedby said movable jaw and engaging said cam, and spring means for urging said jaws together into-clampingsengagement with a conductor located between .saidopposed -clamping surfaces, said. actuating member moving said movable jaw to-open position against said'spring means Whenthe actuating member -is rotating in one direction, and-,permitting the:springmeans said engaging said followeL-the rotation ofsaid ac- 16 to. close said aw -when-rthe a tuatingmember :is .rotatedin the opposite direction, SZtidrflBtUfitiIlE member having.a-istop-fiange carried: by said shaft and engaging above ad-laterally projecting lug. on--:said fixed ,jaw to retain the actuating member in its bearing, said stop flange being out away-at a predetermined amount, togclear saidlug.when 'the-actuating member is in a predetermined-rotative position, the actuating member being slida'bleout of said. bearing. in said latter :position, i to: leave the fixed and movable jaws on a conductor. clamped by said jaws.

5. An operating member for clampconnectors comprising an elongatedcylindricalshank, said 15 shank being provided; .with V a radially v-proj ecting cam- {member having :an edge locatedaat. -a gradually increasing radius. -for engaging :a :follower 011 a movable clamping membensaidrshank extending outwardly from said cam and 'having a 20 pointedfcylindrical iportion for-insertion into a cylindrical bearing in the fixed olampingmember of 'a tap clamp, said operating member having on its .shank;.below saidcam, a radially extend ingsto-p flange forengaging' a stop lugon a fixed clamping member, and being provided at its lower-endwithahead for attachment to an insulating -1 operating pole;

6. In an .electricalconnectorof the tap clamp type, the combination of a relatively fixed and a emovablejaw, the-said-jaws being pivoted one -upon -the other, the-fixed jawx'being provided with a depending-extension carrying a connector for securement to a tap wire having above said extension aqtransverselyextending groove for engaging-a. transmission line: conductor, the movable jaw also "having a cooperatingtransverse groove for engaging the line conductor, a diagonally downwardly-and outwardly extending cylindrical bearing portion carried by said :fixed jaw .and having-a tubular bore-extending through it, said fixed jaw also having a through aperture located between; said bearing portion "and the transverselyextending groove, the movable jaw alsoehaving an inwardly projecting "cam follower '45 ,above itstransverse groove and located :to extend through saidlatter-iaperture, one-of-=said jaws being provided at its'upper end with a transversely -.extendi-ng.. and laterally projecting integral :cylind-rioal pin, and the other of said jaws .beingprovided with a pair of upwardly projecting, partially cylindrical bearing formations for engaging saidpin, said bearing formations being separated by aislot and the integral pin having an integral lug engaged in said slot to prevent lateral-movement of the bearing portions "on the mating-cam in 0116-di1i66ti011nl1fgi11g the jaws apart against the tension of said spring and rotation in the otherdirection'permitting the ,jawsito clamp a. linemconductor through the aetionoi said spring.

'7. In anelectrical connector of the tap clam-p type thecombination of a relatively fixed and a movable .jaw, the said. jaws being pivoted one eupon the other, the fixed-jawbeing provided with; a dependingextension carrying a connector for securement to a tap wire havingabove said extension autransversely extendingvgroove for engaging? a transmission line-conductor,- the is. mova e aiaw a1so-..-havin .aop ra ng. tr nsverse groove for engaging the line conductor, a diagonally downwardly and outwardly extending cylindrical bearing portion carried by said fixed jaw and having a tubular bore extending through it, said fixed jaw also having a through aperture located between said bearing portion and the transversely extending groove, the movable jaw also having an inwardly projecting cam follower above its transverse groove and located to extend through said latter aperture, one of said jaws being provided at its upper end with a transversely extending and laterally projecting integral cylindrical-pin, and the other of said jaws being provided with a pair of upwardly projecting, partially cylindrical bearing formations for engaging said pin, said bearing formations being separated by a slot and the integral pin having an integral lug engaged in said slot to prevent lateral movement of the bearing portions on-the pin, spring means carried by said pin and having end portions urging said jaws together, and an actuating cam member having a cylindrical shank rotatably mounted in said bearing portion, and having a cam portion carried by said shank engaging said follower, the rotation of said actuating cam in one direction urging the jaws apart against the tension of said spring and rotation in the other direction permitting the jaws to clamp a line conductor through the action of said spring, the said fixed jaw being provided on the side toward said actuating cam with a stop lug projecting toward said shank and said actuating cam also carrying below the cam on said 18 shank a radially projecting stop flange engaging above said stop lug and having a cut-away portion for passing said stop lug in one of the positions of said actuating cam.

HENRY W. BODENDIECK.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 866,105 Whittlesey Sept. 17, 1907 1,194,628 Hist Aug. 15, 1916 1,488,347 Johnson, Jr Mar. 25, 1924 1,493,517 Bush May 13, 1924 1,515,666 Elderkin Nov. 18, 1924 1,547,314 Frankel July 28, 1925 1,648,326 Sawyer Nov. 8, 1927 1,935,061 Richards Nov. 14, 1933 2,031,921 Bodendieck Feb. 25, 1936 2,114,940 Rudd Apr. 19, 1938 2,194,411 Tipsord Mar. 19, 1940 2,206,653 Yonkers July 2, 1940 2,234,022 Churchill Mar 4, 1941 2,237,588 De Barbieri Apr. 8, 1941 2,329,391 Cappellanti Sept. 14, 1943 FOREIGN PATENTS Number Country Date 469 Great Britain Jan. 13, 1885 610,842 Germany Mar. 16, 1935 

